CN113945371B - A milling cutter production detection system - Google Patents

Abstract

The invention belongs to the field of metalwork detection, and relates to a milling cutter production detection system which comprises a detection platform fixedly arranged on a workbench, wherein a control base is fixedly arranged on one side of the detection platform, a rotatable clamp lifting module is connected and arranged above the control base in a shaft manner, a clamp control module which rotates along with the clamp lifting module and can slide up and down is arranged in the horizontal direction of the clamp lifting module, an openable cleaning collection module is arranged above the detection platform and below the clamp control module, and a milling cutter detection module is fixedly arranged below the detection platform in the cleaning collection module. The invention mainly aims at the specification and quality detection of the milling cutter and solves the problems of time and labor waste and error in the manual detection process.

Description

Milling cutter production detecting system

Technical Field

The invention belongs to the field of metalworking detection, and particularly relates to a milling cutter production detection system.

Background

Milling tools are rotary tools for milling machining having one or more cutter teeth. When in operation, each cutter tooth cuts off the allowance of the workpiece intermittently in sequence. Milling cutters are mainly used for machining planes, steps, grooves, forming surfaces, cutting workpieces, etc. on milling machines. Most of milling cutter detection is carried out by people, and labor is consumed relatively, so that a milling cutter production detection system needs to be designed to replace the error problem in manual detection.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a milling cutter production detection system.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

The utility model provides a milling cutter production detecting system, includes the testing platform of fixed mounting on the workstation, the fixed control base that is equipped with in one side on the testing platform, its characterized in that: the upper shaft of the control base is connected with a rotatable clamp lifting module, and a clamp control module which rotates along with the clamp lifting module and can slide up and down is arranged in the horizontal direction of the clamp lifting module; the automatic milling cutter cleaning device is characterized in that an openable cleaning collecting module is arranged below the clamp control module above the detection platform, and a milling cutter detection module is fixedly arranged below the detection platform in the cleaning collecting module.

Preferably, the detection platform comprises a platform shell, a detection control motor is connected and arranged below the control base in the platform shell, and a detection control shaft is connected and arranged in the vertical direction of the control base.

Preferably, the clamp lifting module comprises a rotating assembly fixedly arranged on the detection control shaft and rotating along with the detection control shaft along the circumferential direction, a rotating movable rod is arranged between the clamp control module and the rotating assembly, and a lifting rack is fixedly arranged on a vertical surface of an inner cavity of the rotating assembly in the direction of approaching to the rotating assembly by the rotating movable rod; the rotating assembly is close to a control rod which is fixedly arranged in the horizontal direction of the inner cavity in the direction of the rotating movable rod and faces the rotating movable rod, and a rotating gear is arranged on the control rod.

Preferably, the clamp control module comprises a clamping assembly, a clamping assembly shell capable of controlling rotation is arranged in the rotating movable rod, a clamping detection pressing block is arranged in a bottom groove, facing the direction of the milling cutter detection module, of the outer side of the rotating movable rod, a clamping sensor is arranged on the clamping detection pressing block, a clamping detection piston is arranged in the rotating movable rod in the direction away from the milling cutter detection module, and a clamping spring is arranged in the rotating movable rod; the clamping assembly shell is internally provided with a clamping detection hydraulic bin, and the clamping detection hydraulic bin is internally provided with a clamping hydraulic pipeline; the clamping assembly comprises a clamping assembly shell, and is characterized in that a clamping block is arranged on the side wall of a bottom groove of the clamping assembly shell, a first clamping hydraulic bin connected with a clamping hydraulic pipeline is arranged in the clamping assembly shell, and a clamping piston sliding in the first clamping hydraulic bin is connected with the clamping block in the clamping assembly shell.

Preferably, the cleaning and collecting module comprises a cleaning box shell with an opening capable of being opened and closed at one side, a rotating rod is arranged at the opposite side of the cleaning box shell to the opening, and a closing sealing pad is arranged on the opening of the cleaning box shell; the cleaning box comprises a cleaning box body, wherein a stirring rod capable of stirring is symmetrically arranged in the cleaning box body in the direction close to a closing sealing gasket, the stirring rod is connected with a torsion spring, a stirring block is connected in the cleaning box body through the torsion spring, and a stirring slideway for the stirring block to move is arranged in the cleaning box body; cleaning brushes are symmetrically arranged on two sides of the cleaning box shell in the vertical direction, dust collection openings are formed in the outer sides of the cleaning box shell, cleaning recovery pipes are connected to the dust collection openings in the outer sides of the cleaning box shell, cleaning control motors are connected to the cleaning recovery pipes, and the cleaning control motors are communicated to a cleaning collection box in the platform shell.

Preferably, the milling cutter detection module comprises a milling cutter detection assembly, a fixed shell is arranged in the milling cutter detection assembly, a lower detection pressing block is arranged in the center of a groove at the inner side of the bottom of the fixed shell, a lower sensor is arranged on the lower detection pressing block, a detection pressure piston is connected and arranged below the lower detection pressing block, and a lower detection spring is arranged at the inner bottom of the fixed shell; the detection hydraulic pressure piston slides in the detection hydraulic pressure bin, a hydraulic pipeline is arranged in the detection hydraulic pressure bin, a communicated second clamping hydraulic pressure bin is arranged in the fixed shell, a detection hydraulic pressure piston is arranged in the second clamping hydraulic pressure bin, and a detection element is connected to the side face of the center of the inner bottom groove of the fixed shell; the bottom in the second clamping hydraulic bin is provided with a pressure relief pipeline in the fixed shell, and a pressure relief assembly is arranged in the pressure relief pipeline in the direction close to the second clamping hydraulic bin; the pressure release subassembly is equipped with fixed pressure release piece, one side is close to the second in the pressure release piece and presss from both sides tight hydraulic pressure storehouse direction and be equipped with the pressure release mouth, pressure release mouth below is equipped with slidable pressure release slider in the pressure release piece, pressure release slider is equipped with the pressure release spring in the pressure release piece below, the opposite side below is equipped with the pressure release passageway of intercommunication pressure release pipeline in the pressure release piece.

Advantageous effects

The invention provides a milling cutter production detection system through improvement, which has the following improvement and advantages compared with the prior art:

1. According to the invention, the cleaning and collecting module is used for cleaning scraps and other substances on the surface of the milling cutter, and the placement has an influence on detection.

2. The invention can detect the milling cutter in large batch, and reduces the manual labor force.

Drawings

Fig. 1 is a schematic of an isometric structure of the present invention.

Fig. 2 is a schematic diagram of the overall structure of the present invention.

Fig. 3 is a schematic view of the structure of the cleaning collection tank of the present invention.

Fig. 4 is a schematic structural view of the milling cutter detecting assembly of the present invention.

Fig. 5 is an enlarged view of the structure at a in fig. 2.

Fig. 6 is an enlarged view of the structure at B in fig. 2.

Fig. 7 is an enlarged view of the structure at C in fig. 5.

In the figure, 10, a platform shell; 11. cleaning a collecting box; 12. a milling cutter detection assembly; 13. cleaning a control motor; 14. cleaning a recovery pipe; 15. cleaning a box shell; 16. a poking block; 17. a toggle rod; 19. a cleaning brush; 20. detecting a control shaft; 21. detecting and controlling a motor; 22. a rotating assembly; 23. a control lever; 24. rotating the gear; 25. lifting the rack; 27. a clamping assembly; 28. closing the sealing pad; 29. the slideway is stirred; 30. rotating the movable rod and the movable rod; 31. a torsion spring; 32. a dust collection port; 33. a rotating lever; 34. a fixed housing; 35. a push rod; 36. a detection element; 38. a second clamping hydraulic bin; 39. detecting a hydraulic piston; 40. a lower inductor; 41. a lower detection pressing block; 42. a hydraulic conduit; 43. a pressure relief assembly; 44. a pressure relief conduit; 45. a lower detection spring; 46. detecting a pressure piston; 47. detecting a hydraulic bin; 48. a pressure release block; 49. a pressure relief port; 50. a pressure release slide block; 51. a pressure relief spring; 52. a pressure relief channel; 53. a clamping piston; 54. a clamping block; 55. clamping the detection pressing block; 56. clamping the inductor; 57. a clamping spring; 58. clamping the detection piston; 59. a first clamping hydraulic bin; 60. clamping a hydraulic pipeline; 61. a clamping assembly housing; 62. clamping and detecting a hydraulic bin; 81. a detection platform; 82. a control base; 83. a clamp lifting module; 84. a clamp control module; 85. cleaning a collection module; 86. and the milling cutter detection module.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that, the azimuth or positional relationship indicated by the terms "inner", "lower", etc. are based on the azimuth or positional relationship shown in the drawings, or the azimuth or positional relationship that the inventive product is conventionally put in use, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific azimuth, be configured and operated in a specific azimuth, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

As shown in fig. 1-7, a milling cutter production detection system, including the detection platform 81 of fixed mounting on the workstation, one side is fixed to be equipped with control base 82 on the detection platform 81, its characterized in that: a rotatable clamp lifting module 83 is connected and arranged above the control base 82 in a shaft manner, and a clamp control module 84 which rotates along with the clamp lifting module 83 and can slide up and down is arranged in the horizontal direction of the clamp lifting module 83; the upper side of the detection platform 81 is provided with a cleaning and collecting module 85 which can be opened and closed below the clamp control module 84, and the lower side of the detection platform 81 in the cleaning and collecting module 85 is fixedly provided with a milling cutter detection module 86.

Further, the detection platform 81 includes a platform housing 10, a detection control motor 21 is connected and arranged below a control base 82 in the platform housing 10, and a detection control shaft 20 is connected and arranged in the vertical direction of the control base 82.

Preferably, the clamp lifting module 83 comprises a rotating assembly 22 fixedly mounted on the detection control shaft 20 and rotating along with the detection control shaft 20 along the circumferential direction, a rotating movable rod 30 is arranged between the clamp control module 84 and the rotating assembly 22, and a lifting rack 25 is fixedly mounted on the vertical surface of the inner cavity of the rotating assembly 22 in the direction that the rotating movable rod 30 approaches the rotating assembly 22; the rotating assembly 22 is fixedly arranged in the horizontal direction of the inner cavity near the rotating movable rod 30 and is directed to the control rod 23 of the rotating movable rod 30, and the control rod 23 is provided with a rotating gear 24.

Further, the clamp control module 84 includes a clamp assembly 27, the clamp assembly 27 is provided with a clamp assembly housing 61 capable of controlling rotation in the rotary movable rod 30, the clamp assembly housing 61 is provided with a clamp detection press block 55 in a bottom groove facing the direction of the milling cutter detection module 86 at the outer side of the rotary movable rod 30, the clamp detection press block 55 is provided with a clamp sensor 56, the clamp detection press block 55 is provided with a clamp detection piston 58 in the rotary movable rod 30 away from the direction of the milling cutter detection module 86, and the clamp detection piston 58 is provided with a clamp spring 57 in the rotary movable rod 30; a clamping detection hydraulic bin 62 is arranged in the clamping assembly shell 61, and a clamping hydraulic pipeline 60 is arranged in the clamping assembly shell 61 in the clamping detection hydraulic bin 62; the clamping assembly housing 61 is provided with a clamping block 54 on the side wall of the bottom groove, a first clamping hydraulic chamber 59 connected with a clamping hydraulic pipeline 60 is arranged in the clamping assembly housing 61, and the clamping block 54 is connected with a clamping piston 53 sliding in the first clamping hydraulic chamber 59 in the clamping assembly housing 61.

Further, the cleaning and collecting module 85 includes a cleaning box housing 15 with an opening capable of being opened and closed at one side, a rotating rod 33 is arranged at one side of the cleaning box housing 15 opposite to the opening, and a closing sealing pad 28 is arranged on the opening of the cleaning box housing 15; the cleaning box shell 15 is internally and symmetrically provided with a poking rod 17 which can be poked in the direction close to the closing sealing gasket 28, the poking rod 17 is connected with a torsion spring 31, the torsion spring 31 is internally and internally provided with a poking block 16 in the cleaning box shell 15, and the cleaning box shell 15 is internally provided with a poking slideway 29 for the poking block 16 to move; cleaning brushes 19 are symmetrically arranged on two sides of the cleaning box shell 15 in the vertical direction, a dust collection opening 32 is formed in the outer side of the cleaning box shell 15, a cleaning recovery pipe 14 is connected to the dust collection opening 32 on the outer side of the cleaning box shell 15, a cleaning control motor 13 is connected to the cleaning recovery pipe 14, and the cleaning control motor 13 is communicated to a cleaning collection box 11 in the platform shell 10.

Further, the milling cutter detection module 86 includes a milling cutter detection assembly 12, a fixed housing 34 is arranged in the milling cutter detection assembly 12, a lower detection pressing block 41 is arranged in the center of a groove at the inner side of the bottom of the fixed housing 34, a lower sensor 40 is arranged on the lower detection pressing block 41, a detection pressure piston 46 is connected and arranged below the lower detection pressing block 41, and a lower detection spring 45 is arranged at the inner bottom of the fixed housing 34 in the lower detection pressing block 41; the fixed shell 34 is internally provided with a detection hydraulic bin 47, the detection pressure piston 46 slides in the detection hydraulic bin 47, the detection hydraulic bin 47 is internally provided with a hydraulic pipeline 42 in the fixed shell 34, the hydraulic pipeline 42 is internally provided with a communicated second clamping hydraulic bin 38, the second clamping hydraulic bin 38 is internally provided with a detection hydraulic piston 39, and the detection hydraulic piston 39 is connected with a detection element 36 at the central side surface of a bottom slot in the fixed shell 34; the bottom in the second clamping hydraulic bin 38 is provided with a pressure relief pipeline 44 in the fixed shell 34, and a pressure relief component 43 is arranged in the pressure relief pipeline 44 in the direction close to the second clamping hydraulic bin 38; the pressure release assembly 43 is provided with a fixed pressure release block 48, a pressure release opening 49 is formed in one side of the pressure release block 48, which is close to the direction of the second clamping hydraulic bin 38, a slidable pressure release slide block 50 is arranged in the pressure release block 48 below the pressure release opening 49, a pressure release spring 51 is arranged below the pressure release slide block 50 in the pressure release block 48, and a pressure release channel 52 communicated with the pressure release pipeline 44 is arranged below the other side of the pressure release block 48.

Principle of operation

The device is inspected prior to production testing of the milling cutter using the milling cutter production testing system. Firstly, checking whether all parts of the device are intact, ensuring that the connection among all the parts is intact and effective, and ensuring that the device can normally operate.

The opening device is placed in the clamping assembly 27 at the safety area, at this time, the clamping detection pressing block 55 is pressed to push the clamping detection piston 58 upwards, so that the clamping detection piston 58 pushes hydraulic oil in the clamping detection hydraulic chamber 62 into the first clamping hydraulic chamber 59 through the clamping hydraulic pipeline 60, and the clamping piston 53 in the first clamping hydraulic chamber 59 is pushed by the hydraulic oil pressure to clamp the milling cutter tail by the clamping block 54.

The motor is turned on, the rotating assembly 22 rotates and controls the rotating gear 24 to rotate, and the movable rotating rod 30 integrally rotates, so that the clamping assembly 27 is located right above the milling cutter detecting module 86. When the milling cutter passes through the poking rod 17, the milling cutter pushes the poking rod 17 to enable the poking rod 17 to deflect under the force, the poking block 16 is driven to rotate in the poking slide way 29, when the poking block 16 rotates to the inner wall of the poking slide way 29, the cleaning box shell 15 starts to fold, the closing sealing gasket 28 is tightly attached together finally, meanwhile, the poking rod 17 rebounds, and at the moment, the milling cutter is located at the central position of the cleaning collecting module 85. The motor is turned on to clean the milling cutter by the cleaning brush 19 and the chips are fed into the cleaning collection box 11 through the dust suction port 32.

The milling cutter is controlled to continuously press down and slowly rotate simultaneously, so that the lower detection pressing block 41 is pressed down, the lower sensor 40 and the clamping sensor 56 sense the length of the milling cutter, meanwhile, the detection pressure piston 46 is driven to push hydraulic oil in the detection hydraulic bin 47 into the second clamping hydraulic bin 38 through the hydraulic pipeline 42, and the detection hydraulic piston 39 pushes the detection element 36 to fasten the milling cutter and detect whether the head is defective. When the second clamping hydraulic chamber 38 is excessively filled with hydraulic oil, the hydraulic oil presses down the pressure release slider 50, and the hydraulic oil enters the pressure release passage 52 from the pressure release port 49 and returns to the detection hydraulic chamber 47 through the pressure release pipe 44.

After the detection is finished, the motor controls the milling cutter and places the milling cutter in a concentrated mode.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the invention.

Claims (3)

1. The utility model provides a milling cutter production detecting system, includes detection platform (81) of fixed mounting on the workstation, one side is fixed on detection platform (81) is equipped with control base (82), its characterized in that: a rotatable clamp lifting module (83) is connected and arranged above the control base (82) in a shaft connection manner, and a clamp control module (84) which can slide up and down along with the rotation of the clamp lifting module (83) is arranged in the horizontal direction of the clamp lifting module (83); a cleaning and collecting module (85) capable of opening and closing is arranged below the clamp control module (84) above the detection platform (81), and a milling cutter detection module (86) is fixedly arranged below the detection platform (81) in the cleaning and collecting module (85);

The clamp control module (84) comprises a clamping assembly (27), a clamping assembly shell (61) capable of controlling rotation is arranged in the rotating movable rod (30) of the clamping assembly (27), a clamping detection pressing block (55) is arranged in a bottom groove facing the direction of the milling cutter detection module (86) at the outer side of the rotating movable rod (30) of the clamping assembly shell (61), a clamping sensor (56) is arranged on the clamping detection pressing block (55), a clamping detection piston (58) is arranged in the rotating movable rod (30) away from the direction of the milling cutter detection module (86) of the clamping detection pressing block (55), and a clamping spring (57) is arranged in the rotating movable rod (30) of the clamping detection piston (58); a clamping detection hydraulic bin (62) is arranged in the clamping assembly shell (61), and a clamping hydraulic pipeline (60) is arranged in the clamping assembly shell (61) by the clamping detection hydraulic bin (62); the clamping assembly comprises a clamping assembly shell (61), wherein a clamping block (54) is arranged on the side wall of a bottom groove of the clamping assembly shell (61), a first clamping hydraulic bin (59) connected with a clamping hydraulic pipeline (60) is arranged in the clamping assembly shell (61), and a clamping piston (53) sliding in the first clamping hydraulic bin (59) is connected with the clamping block (54) in the clamping assembly shell (61);

The cleaning and collecting module (85) comprises a cleaning box shell (15) with an opening capable of being opened and closed, a rotating rod (33) is arranged on one side, opposite to the opening, of the cleaning box shell (15), and a closing sealing gasket (28) is arranged on the opening of the cleaning box shell (15); the cleaning box comprises a cleaning box shell (15), wherein a poking rod (17) capable of poking is symmetrically arranged in the cleaning box shell (15) and close to a closing sealing gasket (28), the poking rod (17) is connected with a torsion spring (31), poking blocks (16) are connected with the torsion spring (31) in the cleaning box shell (15), and poking slide ways (29) for the poking blocks (16) to move are arranged in the cleaning box shell (15); cleaning brushes (19) are symmetrically arranged on two sides of the cleaning box shell (15) in the vertical direction, a dust collection opening (32) is formed in the outer side of the cleaning box shell (15), a cleaning recovery pipe (14) is connected to the dust collection opening (32) on the outer side of the cleaning box shell (15), a cleaning control motor (13) is connected to the cleaning recovery pipe (14), and the cleaning control motor (13) is communicated to a cleaning collection box (11) in the platform shell (10);

The milling cutter detection module (86) comprises a milling cutter detection assembly (12), a fixed shell (34) is arranged in the milling cutter detection assembly (12), a lower detection pressing block (41) is arranged in the center of a groove at the inner side of the bottom of the fixed shell (34), a lower inductor (40) is arranged on the lower detection pressing block (41), a detection pressure piston (46) is connected below the lower detection pressing block (41), and a lower detection spring (45) is arranged in the bottom of the fixed shell (34) on the lower detection pressing block (41); the hydraulic pressure detection device is characterized in that a detection hydraulic pressure bin (47) is arranged in the fixed shell (34), the detection hydraulic pressure piston (46) slides in the detection hydraulic pressure bin (47), a hydraulic pipeline (42) is arranged in the fixed shell (34) in the detection hydraulic pressure bin (47), a communicated second clamping hydraulic pressure bin (38) is arranged in the fixed shell (34) in the hydraulic pipeline (42), a detection hydraulic pressure piston (39) is arranged in the second clamping hydraulic pressure bin (38), and a detection element (36) is connected to the central side face of an inner bottom groove of the fixed shell (34) in the detection hydraulic pressure piston (39); the bottom in the second clamping hydraulic bin (38) is provided with a pressure relief pipeline (44) in the fixed shell (34), and a pressure relief assembly (43) is arranged in the pressure relief pipeline (44) in the direction close to the second clamping hydraulic bin (38); the pressure relief assembly (43) is provided with a fixed pressure relief block (48), one side in the pressure relief block (48) is close to the direction of the second clamping hydraulic bin (38) and is provided with a pressure relief opening (49), a slidable pressure relief sliding block (50) is arranged in the pressure relief block (48) below the pressure relief opening (49), a pressure relief spring (51) is arranged below the pressure relief sliding block (50) in the pressure relief block (48), and a pressure relief channel (52) communicated with a pressure relief pipeline (44) is arranged below the other side in the pressure relief block (48).

2. The milling cutter production inspection system of claim 1, wherein: the detection platform (81) comprises a platform shell (10), a detection control motor (21) is connected and arranged below a control base (82) in the platform shell (10), and a detection control shaft (20) is connected and arranged in the vertical direction of the control base (82).

3. The milling cutter production inspection system of claim 1, wherein: the clamp lifting module (83) comprises a rotating assembly (22) fixedly arranged on the detection control shaft (20) and rotating along with the detection control shaft (20) along the circumferential direction, a rotating movable rod (30) is arranged between the clamp control module (84) and the rotating assembly (22), and a lifting rack (25) is fixedly arranged on the vertical surface of the inner cavity of the rotating assembly (22) in the direction of approaching to the rotating assembly (22) by the rotating movable rod (30); the rotating assembly (22) is close to a control rod (23) which is fixedly arranged in the horizontal direction of the inner cavity in the direction of the rotating movable rod (30) and faces the rotating movable rod (30), and a rotating gear (24) is arranged on the control rod (23).